Fluoro-carbon rubber compounds

Description

Among the other rubber classes, fluoro-elastomers (FKM or FPM and FFKM) show the best properties in terms of resistance to fire and to chemical agents due to the high content of fluorine and to the intrinsic stability of the carbon-fluorine bond. Commercial grades of fluoro-elastomers are obtained from the radical polymerization of vinyl monomers. The most common are: difluoroethylene (VDF), tetrafluoroethylene (TFE), hexafluoropropylene (HFP), perfluoromethylvinylether (PMVE), 2-methoxyethylvinyl ether (MOVE), ethylene and propylene. The proper polymer in-chain dosing of groups with different steric hindrance and properties together with the employment of specific terminal chains allow modulating mechanical properties, their behaviour at low temperature, chemical resistance, the type of reticulation and processability. The rigidity of fluoro-elastomer polymer chains determines a peculiar plastic behaviour with a rather slow creep recovery and low resilience.

Fluroelastomer-based formulations are generally characterised by the use of non‑ or weak‑reinforcing fillers, both carbon blacks and white fillers, and by a low content of process aids.

Characteristics

These are some of the properties of fluoro-carbon rubber compounds:

Steady service temperature up to +320°C also in contact with fluids

Dynamic employment at low temperatures up to -45°C with some specific grades

High compatibility with all type of fuels

Excellent resistance to blow-by condensates

High resistance to solvents, oils, acids and bases, both organic and inorganic

Low gas permeability

Excellent dielectric properties

High resistance to fire

Processing

Fluoro-carbon rubber compounds are generally processed through compression or injection moulding depending on the type of article. Frequently, fluoro-elastomers are overmolded on metal parts. Another typical application is the preparation of hoses and tubes, by means of extrusion or wrapping and autoclave curing. The complex macromolecular architecture permits taking advantage of ionic reticulation mechanism using appropriate diamines or bisphenol curatives combined with specific activators, or radical reticulation mechanism using appropriate organic peroxides.

Some applications

O-ring for fuel distribution, lubricant and chemical agents

Rotary shaft seals

Manifold seals

Valve seals

Gaskets

Hoses and tubes for fuel and lubricant systems

Turbo charge hoses

Fuel tank bladders

Rolls

Component parts for the semiconductor industry

Processing

Fluoro-carbon rubber compounds are generally processed through compression or injection moulding depending on the type of article. Frequently, fluoro-elastomers are overmolded on metal parts. Another typical application is the preparation of hoses and tubes, by means of extrusion or wrapping and autoclave curing. The complex macromolecular architecture permits taking advantage of ionic reticulation mechanism using appropriate diamines or bisphenol curatives combined with specific activators, or radical reticulation mechanism using appropriate organic peroxides.

Some applications

O-ring for fuel distribution, lubricant and chemical agents

Rotary shaft seals

Manifold seals

Valve seals

Gaskets

Hoses and tubes for fuel and lubricant systems

Turbo charge hoses

Fuel tank bladders

Rolls

Component parts for the semiconductor industry

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